Radio communication probe
By designing an anti-interference sleeve and component mounting base structure for the radio communication probe, the problems of insufficient anti-interference capability and inconvenient installation of radio probes on CNC machine tools are solved, achieving efficient and accurate signal transmission and convenient installation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SUZHOU HANCE MEASURING EQUIP CO LTD
- Filing Date
- 2025-07-08
- Publication Date
- 2026-06-26
AI Technical Summary
Existing radio-controlled probes have insufficient anti-interference capabilities on CNC machine tools and are inconvenient to install, affecting measurement accuracy and efficiency.
A radio communication probe was designed, which adopts an anti-interference sleeve and component mounting base structure. Through components such as magnetic ring connection, positioning locking block and locking bolt, it ensures stable wireless signal transmission and facilitates disassembly and installation.
It improves the anti-interference ability and ease of installation of the radio communication probe, ensures the accuracy of measurement and transmission speed, and enhances its application effect on CNC machine tools.
Smart Images

Figure CN224407077U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of machine tool probe technology, and in particular to radio communication probes. Background Technology
[0002] The application of CNC machine tools has greatly improved machining efficiency, and the high yield rate directly leads to lower product costs, thus enhancing product competitiveness. Probes can be classified by function into workpiece inspection probes and tool inspection probes. Based on signal transmission methods, they can be categorized into four types: hard-wired, inductive, optical, and radio-based. The specific transmission method chosen depends on the application and can be installed on most CNC machine tools, such as CNC lathes, machining centers, and CNC grinding machines. This application provides a radio communication probe for radio-based probes, which features a simple structure, strong anti-interference capabilities, and easy disassembly and installation. Utility Model Content
[0003] In order to solve the above-mentioned technical problems, the purpose of this utility model is to provide a radio communication probe that is highly resistant to interference and easy to disassemble and install.
[0004] This utility model is achieved by the following technical solution:
[0005] A radio communication probe includes a probe, a probe mounting base, a transparent annular sleeve, a component mounting base, a connecting base, and a mounting rod. The probe mounting base has a probe on top, a transparent annular sleeve below, and an anti-interference sleeve located within the transparent annular sleeve. The lower end of the anti-interference sleeve connects to the component mounting base. The component mounting base has a U-shaped groove on its side, with a fixing hole inside the U-shaped groove. Locking holes communicating with the inner hole of the component mounting base are evenly distributed on the circumferential wall below the U-shaped groove. The inner hole of the component mounting base has an internal thread. A positioning bushing is located at the lower end of the anti-interference sleeve and extends into the inner hole of the component mounting base. A corresponding positioning locking block is located on the U-shaped groove. A threaded connector is located on the connecting base and connects to the internal thread of the component mounting base. The mounting rod is fixed to the connecting base.
[0006] Furthermore, the probe mounting base is provided with a first threaded hole for connecting to the probe and a second threaded hole for connecting to the external threads at both ends of the anti-interference sleeve; a magnetic ring is provided on the lower end connecting surface of the probe mounting base; an annular magnet ring corresponding to the magnetic ring is provided on the upper end surface of the transparent annular sleeve, and a threaded connection part is machined on the lower outer circular surface of the transparent annular sleeve to connect to the threaded hole on the upper surface of the component mounting base.
[0007] Furthermore, the upper outer surface of the anti-interference sleeve is provided with a positioning hole; the radio signal device is installed into the component mounting base from the upper end of the anti-interference sleeve, the radio signal device is supported by a locking screw passing through the locking hole, and the radio signal device is limited by a positioning pin passing through the positioning hole.
[0008] Furthermore, the component mounting base has a positioning protrusion in its U-shaped groove; the positioning locking block has a locking adjustment bolt on its outer circular surface and a positioning snap-fit groove on its lower surface; the positioning snap-fit groove of the positioning locking block is connected to the positioning protrusion, and the locking adjustment bolt passes through the fixing hole and abuts against the positioning bushing inside the component mounting base.
[0009] Furthermore, after the probe is screwed into the first threaded hole, a washer is fitted onto the threaded end of the probe and locked in place by a nut.
[0010] Furthermore, the connecting seat is provided with a machine tool connecting ring and a docking mounting groove; the docking mounting groove is perpendicular to the machine tool connecting ring, and the bottom plane of the docking mounting groove is lower than the annular bottom of the machine tool connecting ring.
[0011] In summary, the present invention has the following beneficial effects: The radio communication probe provided by the present invention improves anti-interference performance through the anti-interference sleeve, ensuring the transmission of wireless signals. The component mounting base ensures the positional accuracy and stability of the radio signal device in the component mounting base. Moreover, the entire structure is easy to disassemble and install, greatly improving the convenience of installation and disassembly, ensuring the measurement accuracy of the radio communication probe, and providing fast transmission speed. Attached Figure Description
[0012] Figure 1 This is a schematic diagram of the assembled structure of this utility model.
[0013] Figure 2 This is a schematic diagram of the overall exploded structure of this utility model.
[0014] Figure 3 This is a schematic diagram of the overall exploded structure of this utility model after the angle is adjusted.
[0015] Figure 4 This is a bottom view of the probe mounting base.
[0016] Figure 5 This is a schematic diagram of the anti-interference sleeve.
[0017] The components include: 1. Probe head; 2. Probe head mounting base; 3. Transparent annular sleeve; 4. Gasket; 5. Nut; 6. Anti-interference sleeve; 7. Component mounting base; 8. Positioning locking block; 9. Connecting seat; 10. Mounting rod; 21. First threaded hole; 22. Magnetic ring; 23. Second threaded hole; 61. Positioning hole; 62. External thread; 63. Positioning bushing; 71. U-groove; 72. Locking hole; 73. Fixing hole; 74. Positioning protrusion; 75. Locking screw; 76. Internal thread; 81. Locking adjusting bolt; 82. Positioning snap-fit groove; 91. Threaded connector; 92. Machine tool connecting snap ring; 93. Butt mounting groove. Detailed Implementation
[0018] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.
[0019] like Figures 1 to 5 As shown, the radio communication probe includes a probe 1, a probe mounting base 2, a transparent annular sleeve 3, a component mounting base 7, a connecting base 9, and a mounting rod 10. The probe 1 is mounted on the probe mounting base 2, and the transparent annular sleeve 3 and an anti-interference sleeve 6 located within the transparent annular sleeve 3 are mounted below it. The lower end of the anti-interference sleeve 6 is connected to the component mounting base 7. A U-shaped groove 71 is provided on the side of the component mounting base 7, and a fixing hole 73 is provided within the U-shaped groove 71. The circumferential wall below the U-shaped groove 71 is uniformly... The component mounting base 7 has a locking hole 72 communicating with the inner hole of the component mounting base 7, and an internal thread 76 is provided in the inner hole of the component mounting base 7. A positioning bushing 63 is provided at the lower end of the anti-interference sleeve 6, extending into the inner hole of the component mounting base 7. A corresponding positioning locking block 8 is provided on the U-shaped groove 71. A threaded connector 91 is provided on the connecting seat 9, and the threaded connector 91 connects to the internal thread 76 of the component mounting base 7. The mounting rod 10 is fixed to the connecting seat 9. The radio communication probe provided by this utility model improves anti-interference performance through the anti-interference sleeve 6, ensuring the transmission of wireless signals. The component mounting base 7 ensures the positional accuracy and stability of the radio signal transmitter within the component mounting base 7. Furthermore, the entire structure is easy to disassemble and install, greatly improving the convenience of installation and disassembly, ensuring the measurement accuracy of the radio communication probe, and providing fast transmission speed.
[0020] As a preferred embodiment, such as Figure 4As shown, the probe mounting base 2 is provided with a first threaded hole 21 for connecting to the probe 1 and a second threaded hole 23 for connecting to the external threads 62 provided at both ends of the anti-interference sleeve 6; a magnetic ring 22 is provided on the lower end connecting surface of the probe mounting base 2; an annular magnet ring corresponding to the magnetic ring 22 is provided on the upper end surface of the transparent annular sleeve 3, and the magnetic ring 22 and the annular magnet ring are precisely connected to improve the installation accuracy. The lower outer circular surface of the transparent annular sleeve 3 is machined with a threaded connection part that connects to the threaded hole on the upper surface of the component mounting base 7.
[0021] As a preferred embodiment, such as Figure 2 and Figure 3 As shown, the upper outer surface of the anti-interference sleeve 6 is provided with a positioning hole 61; the radio signal device is installed into the component mounting base 7 from the upper end of the anti-interference sleeve 6, and the radio signal device is supported by the locking screw 75 passing through the locking hole 72, and then the radio signal device is limited by the positioning pin passing through the positioning hole 61.
[0022] As a preferred embodiment, such as Figure 2 , Figure 3 and Figure 5 As shown, a positioning protrusion 74 is provided in the U-shaped groove 71 of the component mounting base 7; a locking adjustment bolt 81 is provided on the outer circular surface of the positioning locking block 8, and a positioning snap-fit groove 82 is provided on the lower surface; the positioning snap-fit groove 82 of the positioning locking block 8 connects with the positioning protrusion 74 to improve the installation accuracy; the locking adjustment bolt 81 passes through the fixing hole 73 and abuts against the positioning bushing 63 in the component mounting base 7, thereby ensuring the accurate position and stability of the radio signal device after it is installed in the component mounting base 7.
[0023] As a preferred embodiment, after the probe 1 is screwed into the first threaded hole 21, a washer 4 is fitted onto the threaded end of the probe 1 and locked by a nut 5.
[0024] As a preferred embodiment, such as Figure 2 and Figure 3 As shown, the connecting seat 9 is provided with a machine tool connecting ring 92 and a docking mounting groove 93; the docking mounting groove 93 is perpendicular to the machine tool connecting ring 92, and the bottom plane of the docking mounting groove 93 is lower than the annular bottom of the machine tool connecting ring 92. Through this structure, the docking mounting groove 93 is connected to the machine tool connecting mechanism. By rotating the connecting seat 9, the machine tool connecting mechanism is engaged in the machine tool connecting ring 92, thereby improving the stability of the installation connection.
[0025] Although the specific embodiments of this utility model have been described and explained in detail above, it should be noted that various equivalent changes and modifications can be made to the above embodiments based on the concept of this utility model. As long as the resulting functions do not exceed the spirit covered by the specification, they should all be within the protection scope of this utility model.
Claims
1. A radio communication probe comprising a probe, a probe mounting base, a transparent ring-shaped cover, a component mounting base, a connecting base and a mounting rod; characterized in that: The probe mounting base has a probe on top, a transparent annular sleeve below, and an anti-interference sleeve inside the transparent annular sleeve. The lower end of the anti-interference sleeve is connected to the component mounting base. The component mounting base has a U-shaped groove on its side, with a fixing hole inside the U-shaped groove. Locking holes communicating with the inner hole of the component mounting base are evenly distributed on the circumferential wall below the U-shaped groove. The inner hole of the component mounting base has an internal thread. A positioning bushing is provided at the lower end of the anti-interference sleeve, extending into the inner hole of the component mounting base. A corresponding positioning locking block is provided on the U-shaped groove. A threaded connector is provided on the connecting base, and the threaded connector is connected to the internal thread of the component mounting base. The mounting rod is fixed to the connecting base.
2. The radio communication probe according to claim 1, characterized in that: The probe mounting base is provided with a first threaded hole for connecting to the probe and a second threaded hole for connecting to the external threads at both ends of the anti-interference sleeve; a magnetic ring is provided on the lower end connecting surface of the probe mounting base; an annular magnet ring corresponding to the magnetic ring is provided on the upper end surface of the transparent annular sleeve, and a threaded connection part is machined on the lower outer circular surface of the transparent annular sleeve to connect to the threaded hole on the upper surface of the component mounting base.
3. The radio communication probe according to claim 2, characterized in that: The upper outer surface of the anti-interference sleeve is provided with a positioning hole; the radio signal device is installed into the component mounting base from the upper end of the anti-interference sleeve, and the radio signal device is supported by the locking screw passing through the locking hole, and then the radio signal device is limited by the positioning pin passing through the positioning hole.
4. The radio communication probe according to claim 3, characterized in that: The component mounting base has a positioning protrusion in its U-shaped groove; the positioning locking block has a locking adjustment bolt on its outer circular surface and a positioning snap-fit groove on its lower surface; the positioning snap-fit groove of the positioning locking block is connected to the positioning protrusion, and the locking adjustment bolt passes through the fixing hole and abuts against the positioning bushing inside the component mounting base.
5. The radio communication probe according to claim 2, characterized in that: After the probe is screwed into the first threaded hole, a washer is fitted onto the threaded end of the probe and then locked in place with a nut.
6. The radio communication probe according to claim 1, characterized in that: The connecting seat is provided with a machine tool connecting ring and a docking mounting groove; the docking mounting groove is perpendicular to the machine tool connecting ring, and the bottom plane of the docking mounting groove is lower than the annular bottom of the machine tool connecting ring.